The consequence of heat radiation on MHD flow of Carreau nanofluid on a nonlinear stretchable surface with chemical process.

In this paper, we examine the Carreau nanofluid flow past a nonlinearly stretchable surface accompanied by chemical reactions, thermal slip parameter and thermal radiation. A two-phase nanofluid criterion is considered to examine the behavior of flowing fluid and temperature profile. We used the similarity transition to change the basic equations into the set of ordinary differential equations in order to obtain the results. Shooting criteria are applied to calculate the solution of momentum, energy, and concentration fields using MATLAB. The effects of physical entities on the velocity, concentration, and temperature fields are analyzed by numeric tabular data. Furthermore, it is analyzed that the temperature field and concentration profile are diminished while velocity and thermal slip parameters are increased. The increasing nature of Brownian movement N b corresponds to a lower nanoparticle profile concentration is observed. The temperature profile is a growing function of magnetic parameter. As the Eckert number rises, so does the thermal pattern. [ABSTRACT FROM AUTHOR]